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Technology

NIST - National Institute of Standards and Technology

03/06/2026 | Press release | Archived content

Efficiently gate-tunable ferromagnetism in ferromagnetic semiconductor-Dirac semimetal p-n heterojunctions

Published

March 6, 2026

Author(s)

Emma Steinebronn, Saurav Islam, Abhinava Chatterjee, Bimal Neupane, Alexander Grutter, Christopher Jensen, Julie Borchers, Timothy Charlton, Wilson J. Yanez-Parreno, Juan Chamorro, Tanya Berry, Supriya Ghosh, K. A. Nivedith, K. A. Mkhoyan, Tyrel McQueen, Yuanxi Wang, Chaoxing Liu, Nitin Samarth

Abstract

We use molecular beam epitaxy to develop a gate tunable p-n heterojunction that interfaces a canonical Dirac semimetal, Cd3As2, and a ferromagnetic semiconductor, In1−xMnxAs, with perpendicular magnetic anisotropy. Measurements of the anomalous Hall effect in top-gated Cd3As2/In1−xMnxAs devices show that the ferromagnetic Curie temperature (TC) can be efficiently tuned using a modest gate voltage of ∼ 10 V, corresponding to a sensitivity to electric field (E) of ∆TC/∆E ∼ 10 K/MV/cm). The voltage tuning of TC saturates near the charge neutrality point of Cd3As2 and vanishes at positive gate voltage in appropriately designed heterostructures. This non-monotonic behavior cannot be explained solely by hole-mediated ferromagnetism in the In1−xMnxAs alone, suggesting an interaction between the Dirac semimetal and the ferromagnetic semiconductor. Our results identify Cd3As2/In1−xMnxAs heterojunctions as a potentially attractive platform for studying emergent phenomena arising from the interplay between broken symmetry, topology, and magnetism in a topological semimetal.

Citation

arvix

Pub Weblink

https://arxiv.org/abs/2603.05770

Pub Type

Websites

Condensed matter

Citation

Steinebronn, E. , Islam, S. , Chatterjee, A. , Neupane, B. , Grutter, A. , Jensen, C. , Borchers, J. , Charlton, T. , Yanez-Parreno, W. , Chamorro, J. , Berry, T. , Ghosh, S. , Nivedith, K. , Mkhoyan, K. , McQueen, T. , Wang, Y. , Liu, C. and Samarth, N. (2026), Efficiently gate-tunable ferromagnetism in ferromagnetic semiconductor-Dirac semimetal p-n heterojunctions, arvix, [online], https://arxiv.org/abs/2603.05770 (Accessed March 14, 2026)

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NIST - National Institute of Standards and Technology published this content on March 06, 2026, and is solely responsible for the information contained herein. Distributed via Public Technologies (PUBT), unedited and unaltered, on March 14, 2026 at 09:24 UTC. If you believe the information included in the content is inaccurate or outdated and requires editing or removal, please contact us at [email protected]

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